Devices, Systems and Methods for Tagging Media

ABSTRACT

Devices, systems and methods are disclosed which relate to tagging and receiving media on a mobile communication device. A mobile communication device is equipped with tag logic allowing the user to tag media objects that are observed and/or desired by the user. The outputted tag includes a media reference and a user identification. When the mobile communication device outputs a media object, the user tags the media object by entering a command, hitting a button, entering a key sequence, etc. The tag is transmitted from the mobile communication device a media server over a network. Once the media server receives the tag, the media server locates the media object in a media database using the media reference. The media server then sends the media object through the network to the mobile communication device. The media server notifies a billing server of the tag, and the user is billed for the downloaded media object.

BACKGROUND OF THE SUBJECT DISCLOSURE

1. Field of the Subject Disclosure

The present subject disclosure relates to tagging media. Morespecifically, the present subject disclosure relates to tagging andreceiving media through a network on a mobile communication device.

2. Background of the Subject Disclosure

Mobile communication devices, such as cellular phones, have become acommon tool of everyday life. Cellular telephones are no longer usedsimply to place telephone calls. With the number of available featuresrapidly increasing, cellular telephones are now used for storingaddresses, keeping a calendar, reading e-mails, drafting documents, etc.These devices are small enough that they can be carried in a pocket orpurse all day, allowing a user to stay in contact almost anywhere.Recent devices have become highly functional, providing applicationsuseful to business professionals as well as the casual user.

Today, there exist wireless devices that are capable of entertainment aswell as work. Many mobile communication devices store and play music andvideos. Increased storage capacity and processing power enable users tostore entire music collections and/or play entire movies. Users can playinteractive games on these mobile communication devices as well.

As these mobile communication devices increase in popularity, usersbecome more familiar with the selection of media and games available.Manufacturers, vendors, and service providers strive to provide userswith a convenient method of obtaining new media and games. iTunes is apopular online service which sells media and games through a user'spersonal computer. Once on the personal computer, these media and gamescan be transferred to a mobile communication device. Service providershave placed media stores right on the mobile communication device. Usersbrowse, purchase, and download media directly through their mobilecommunication device.

Marketplaces making media and applications available to everyone aregenerally ubiquitous. However, there are many occasions where a userhears a song or sees a movie, but is unable to purchase the item. Forexample, a user who calls another mobile communications device may heara ring-back-tone playing until the other side answers. If the user likesthat song, then they may want to purchase it. However, at best, the usermust wait until the end of the conversation to purchase, and at worst,the user doesn't know enough information about the song to find it atthe online store. In another example, a user may see a video or game onanother user's mobile communications device, but lacks time to find themedia.

What is needed in the art is a way for the user to easily purchase mediaas soon as they experience it.

SUMMARY OF THE SUBJECT DISCLOSURE

The present subject disclosure includes devices, systems, and methodsfor tagging and receiving media through a mobile communication device.In exemplary embodiments, a mobile communication device is equipped withtag logic allowing the user to tag media objects that are output usingmedia references and user identification. When the mobile communicationdevice outputs a media object, the user tags the media object byentering a command, hitting a button, entering a key sequence, etc. Thetag includes a media reference, and a user identifier. The tag is sentfrom the mobile communication device through a network to a mediaserver. Once the media server receives the tag, the media server locatesthe media object in a media database using the media reference. Themedia server then sends the media object through the network to themobile communication device. The media server notifies a billing serverof the tag, and the user is billed for the downloaded media object.

In one exemplary embodiment, the present subject disclosure is a mobilecommunication device. The mobile communication device includes aprocessor, a memory in communication with the processor, a transceiverin communication with the processor, a tag logic on the memory forreceiving input to create a tag for a media object, the tag including amedia reference and a user ID, sending the tag to a media server, andreceiving the media object from the media database.

In another exemplary embodiment, the present subject disclosure is asystem for tagging and receiving media on a mobile communication device.The system includes a mobile communication device, a media server incommunication with the mobile communication device, a media database incommunication with the mobile communication device, a billing server incommunication with the media server, a tag logic on the mobilecommunication device for receiving input to create a tag for a mediaobject, the tag including a media reference and a user ID, sending thetag to a media server, and receiving the media object from the mediadatabase, and a media logic on the media server for receiving the tagfrom the mobile communication device, sending the media object to themobile communication device, and sending a record of the media tag tothe billing server.

In yet another exemplary embodiment, the present subject disclosure is amethod for tagging and receiving media on a mobile communication device.The method includes receiving input to create a tag for a media object,the tag including a media reference and a user ID, sending the tag to amedia server, and receiving the media object from the media database.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A shows a mobile communication device, according to an exemplaryembodiment of the present subject disclosure.

FIG. 1B shows the inner components of a mobile communication device,according to an exemplary embodiment of the present subject disclosure.

FIG. 2 shows a system for tagging and receiving media, according to anexemplary embodiment of the present subject disclosure.

FIG. 3 shows a flowchart for tagging and receiving media, according toan exemplary embodiment of the present subject disclosure.

FIG. 4 shows another system for tagging and receiving media, accordingto an exemplary embodiment of the present subject disclosure.

FIG. 5 shows a screenshot for tagging media from another mobilecommunication device, according to an exemplary embodiment of thepresent subject disclosure.

DETAILED DESCRIPTION OF THE SUBJECT DISCLOSURE

The present subject disclosure includes devices, systems, and methodsfor tagging and receiving media through a mobile communication device.In exemplary embodiments, a mobile communication device is programmedwith tag logic enabling a user to tag media objects that are output(?)using media references and user identification. When the mobilecommunication device outputs a media object, the user tags the mediaobject via an interface provided by the tag logic. The user tags themedia object by entering a command, hitting a button, entering a keysequence, etc. The tag includes a media reference, and a useridentifier. The tag is transmitted from the mobile communication devicethrough a network to a media server. Upon receiving the tag, the mediaserver locates the media object in a media database using the mediareference included in the tag. The media server then transmits the mediaobject through the network to the mobile communication device. The mediaserver additionally notifies a billing server of the receipt of the tag,and the user is subsequently billed for the tagged media object.

A “media object”, as used herein and throughout this disclosure, is anydigital multimedia or software application(?) including pictures,sounds, videos, games, etc., in whole or in part. A “media reference”,as used herein and throughout this disclosure, is any availableinformation that identifies one of a plurality of specific attributes ofa media object. For instance, a media reference may include one or acombination of a song title and artist, a date and time the media objectwas played, a hash of the underlying code of the media object, etc.Media references may take different forms depending on the availableinformation.

“Mobile communication device”, as used herein and throughout thisdisclosure, refers to any electronic device capable of wirelesslysending and receiving data. A mobile communication device may have aprocessor, a memory, a transceiver, an input, and an output. Examples ofsuch devices include cellular telephones, personal digital assistants(PDAs), portable computers, etc. The memory stores applications,software, or logic. Examples of processors are computer processors(processing units), microprocessors, digital signal processors,controllers and microcontrollers, etc. Examples of device memories thatmay comprise logic include RAM (random access memory), flash memories,ROMS (read-only memories), EPROMS (erasable programmable read-onlymemories), and EEPROMS (electrically erasable programmable read-onlymemories).

“Logic”, as used herein and throughout this disclosure, refers to anyinformation having the form of instruction signals and/or data that maybe applied to direct the operation of a processor. Logic may be formedfrom signals stored in a device memory. Software is one example of suchlogic. Logic may also be comprised by digital and/or analog hardwarecircuits, for example, hardware circuits comprising logical AND, OR,XOR, NAND, NOR, and other logical operations. Logic may be formed fromcombinations of software and hardware. On a telecommunication network,logic may be programmed on a server, or a complex of servers. Aparticular logic unit is not limited to a single logical location on thetelecommunication network.

Mobile communication devices communicate with each other and with otherelements via a network, for instance, a wireless network, or a wirelinenetwork. A “network” can include broadband wide-area networks such ascellular networks, local-area networks (LAN), and personal areanetworks, such as near-field communication (NFC) networks includingBLUETOOTH®. Communication across a network is preferably packet-based;however, radio and frequency/amplitude modulations networks can enablecommunication between mobile communication devices using appropriateanalog-digital-analog converters and other elements. Communication isenabled by hardware elements called “transceivers.” Mobile communicationdevices may have more than one transceiver, capable of communicatingover different networks. For example, a cellular telephone can include acellular transceiver for communicating with a cellular base station, aWi-Fi transceiver for communicating with a Wi-Fi network, and aBLUETOOTH® transceiver for communicating with a BLUETOOTH® device. Anetwork typically includes a plurality of elements that host logic forperforming tasks on the network.

For the following description, it can be assumed that mostcorrespondingly labeled structures across the figures (e.g., 113 and213, etc.) possess the same characteristics and are subject to the samestructure and function. If there is a difference between correspondinglylabeled elements that is not pointed out, and this difference results ina non-corresponding structure or function of an element for a particularembodiment, then that conflicting description given for that particularembodiment shall govern.

FIG. 1A shows a mobile communication device 100, according to anexemplary embodiment of the present subject disclosure. Mobilecommunication device 100 includes a display 102, a keypad 104 includinga tag key 105, a microphone 106, a speaker 108, and an antenna 109.Display 102 is a liquid crystal display (LCD) which serves as a visualoutput for the user. Keypad 104 is an input for entering information andcommands to mobile communication device 100. Tag key 105 is a key onkeypad 104 that executes tag logic as discussed below. Microphone 106accepts aural input and allows mobile communication device 100 todeliver voice communication to the network and other mobilecommunication devices. Speaker 108 outputs audio for the user to hear.Antenna 109 sends and receives wireless radiofrequency (RF) signals toand from wireless networks and other wireless devices.

FIG. 1B shows the inner components of a mobile communication device 100,according to an exemplary embodiment of the present subject disclosure.The inner components of mobile communication device 100 include aprocessor 110, a memory 112 including a tag logic 113, a transceiver114, a battery 116, and a GPS unit 118. Processor 110 receives input andissues commands to deliver output through the other components. Memory112 holds information for enabling processor 110 to operate the othercomponents of mobile device 100, and contains tag logic 113. Tag logic113 generates tags upon a command input by a user. A tag includes amedia reference corresponding to a media object, and a useridentification unique to the user of mobile device 100. Once a tag iscreated, the tag logic 113 transmits the tag to a media server across amobile network via transceiver 114 ad antenna 109. The tag logic furtherreceives a media object from the network, the media object referenced inthe media reference, and stores the media object in memory 112.Transceiver 114 converts wireless signals received by antenna 108 toinformation capable of processing by processor 110, and vice-versa.Transceiver 114 can use one or more wireless protocols, includingcellular RF, WiFi, BLUETOOTH, etc., to communicate with the network andother mobile communication devices. Battery 116 powers mobilecommunication device 100. GPS unit 118 is a global locator for mobilecommunication device 100. GPS Unit 118 determines the position of mobilecommunication device by communicating with satellites, and includesregular GPS as well as Assisted GPS (AGPS) features.

There are many embodiments of a mobile communication device that arecapable of being equipped with the present subject disclosure. Forinstance, many legacy model cellular telephones are capable of executingthe tag logic described above. The tag key 105 of FIG. 1A issubstantially for convenience. In other embodiments, a user can executea tag command by pressing any key or combination of keys. Other forms ofcommand input trigger the tag logic in further embodiments, such asvoice input through a microphone, tactile input through a touch screen,movement sensed by an accelerometer, visual input through a camera, etc.

In other embodiments of the mobile communication device, other displaysare used, such as an LED display, OLED display, etc. In someembodiments, the display is used as a touch-sensitive input device, i.e.a touch screen. A touch screen allows the user to view output on thedisplay as well as use the display to provide input. In some touchscreen embodiments, the mobile communication device may not have aphysical keypad for input. Instead, a virtual keypad is displayed on thetouch screen and the user inputs by touching the virtual keys. Otherforms of input such as full keyboards, accelerometers, motion sensors,etc., can be utilized in the mobile communication device. The memory canbe a non-removable internal memory, or a removable memory such as in asubscriber identity module (SIM) card or a memory card inserted into amemory card reader. Many mobile communication devices have more than onetransceiver or a transceiver that supports more than one protocol. Forinstance, it is not uncommon for a mobile communication device tosupport cellular radio frequency (RF), WiFi, and BLUETOOTH® protocols.Embodiments of the mobile communication device include RFID or smartcardreaders as well.

FIG. 2 shows a system for tagging and receiving media, according to anexemplary embodiment of the present subject disclosure. The systemincludes a mobile communication device 200 having tag logic 213 storedon a memory therein, a base station 222, a network 220, a media server224 having media logic 225 stored on a memory therein, a media database226, and a billing server 228. Mobile communication device 200 connectsto network 220 through base station 222 wirelessly, and base station 222relays the communication to other elements on network 220. Network 220is in communication with media server 224 and billing server 228. Mediaserver 224 is further in communication with media database 226. Variousmethods may be used to enable communication between network elements.For instance, base station 222 includes or is part of a radio networkincluding radio network controllers, gateways, etc. Network 220 isrepresentative of a plurality of different types of networkcommunicating with each other, such as radio networks, mobile networks,data networks, the Internet, and so on. Consequently, an IP enabledmobile device 200 would be able to communicate directly with servers 224and 228. Further, in an IP Multimedia System, each network entity has aunique address, and direct connections are possible between one or morenetwork entities in order to transmit and receive media tags,stream/download media objects, etc. In some embodiments, the mediadatabase is connected directly to the network. Thus, the goals of thesystem can be achieved by connecting these components in various ways.

In operation, a user of mobile communication device 200 experiences orencounters a media object that he desires to acquire. For instance, theuser browses a web site using his mobile device, and stumbles upon avideo or audio object. Instead of manually having to track down adownload link, or go through a purchasing screen/interface, the usersimply tags the object using a simple input on mobile device 200. Taglogic 213 generates the tag in response to the input, the tag includinga reference to the media object, and a unique identifier of the user,and transmits the tag to media server 224. Media logic 225, on mediaserver 224, receives the tag and parses the contents of the tag todetermine the media reference and the user identifier. Since the mediareference may be any of a song title and artist, a date and time themedia object was played, a hash of the underlying code of the mediaobject, etc., the media logic must determine which media object in mediadatabase 226 the user has tagged. This determination depends on the typeof media reference. A query of media database 226 is sufficient formedia references based on a song title, artist, and hash. For mediareferences based on last played date, time, etc., a call log or othertime table of records may be queried. Media database 226 returns one ormore search results, and a closest match is selected as thecorresponding media object. Once the media object is determined, themedia object is transmitted from media database 226 through network 220to mobile communication device 200. Either the closest match istransmitted, or the user is presented with a plurality of close matches,upon which the user can select the desired media object. Once the mediaobject is acquired by the user or transmitted to mobile device 200,media server 224 transmits a notice to billing server 228, the noticeincluding the user identifier and the media reference. An amount may beincluded in the notice. Alternatively, the billing server 228 refers toa separate database of prices/amounts when billing the user. The mediaobject may be added to a monthly bill for the user, with the billingactually occurring at a later date.

FIG. 3 shows a method for tagging and receiving media, according to anexemplary embodiment of the present subject disclosure. In thisexemplary embodiment, a call is placed from a calling mobilecommunication device to a called mobile communication device (S330). Asthe user of the calling mobile communication device waits for an answer,the user hears a ring-back-tone being played of the latest hit song(S331). The user likes this song, and decides to tag the song (S332).The user tags the song by pressing a dedicated “TAG” button, entering akey sequence, etc. Tag logic on the calling mobile communication devicegenerates a tag including a media reference associated with the song anda user identifier, and transmits the tag through the network to themedia server (S333). The media server searches a media database usingthe media reference to determine the closest match. In this exemplaryembodiment, the media server verifies with the user that the closestmatch is identical to the media object referenced in the tag (S334). Inthis embodiment, the user receives a telephone call on their mobiledevice, and the media object is played for the user. The user hears thelatest hit song once again, and enters a key to verify the media object.Once verified, the media object is sent through the network to themobile communication device (S335). Other means of verifying the mediaobject with a user will become apparent to a person having ordinaryskill in the art in light of this disclosure.

After hitting the “TAG” button, the called mobile communication devicemay answer the call. In this case, the media server will wait until thecall is completed to verify the media object. Transmission of the tag tothe media server generally occurs through the network. The tag can betransmitted using a control channel, a Short Message Service (SMS)message, an email, etc., depending on the embodiment. In someembodiments, the mobile communication device emits Dual-ToneMulti-Frequency (DTMF) tones that the media server receives and parsesto determine the media reference and the user identifier. The userreceives a call to verify an audible media object, such as a song. Theuser verifies by hitting a key on the keypad, or using some other formof input. The verification can be sent using a control channel, SMS,email, or any of the methods used to tag the media object. Other typesof media objects require different forms of verification. To verify agame or application, a picture of the game or application is sent to themobile communication device. The image can be sent by a control channel,SMS, email, etc. The user may verify by sending a reply or using any ofthe methods for sending a tag. Different media objects may requiredifferent forms of verification, which will become readily recognizableby those having skill in the art, upon reading this disclosure.

FIG. 4 shows another system for tagging and receiving media, accordingto an exemplary embodiment of the present subject disclosure. Thissystem includes a mobile communication device 400 having stored withinan onboard memory a tag logic 413, a base station 422, a second mobilecommunication device 401 also having tag logic 413, a network 420, amedia server 424 having media logic 425, a media database 426, and abilling server 428. Mobile communication device 400 and mobilecommunication device 401 wirelessly connect to network 420 through basestation 422, which relays the communication to network elements onnetwork 420. Network 420 is in communication with media server 424 andbilling server 428. Media server 24 is equipped with media logic 425 andis further in communication with media database 426. As in the system ofFIG. 2, various methods may be used to enable communication betweennetwork elements such as IP networking, etc. Further, other componentsare not shown but will be known to one skilled in the art, such as radionetwork controllers, gateways, etc.

When a user of mobile communication device 400 is near mobilecommunication device 401, the user of device 400 sees, admires, andconsequently desires to own for himself a media object displayed orbeing played on mobile communication device 401. Using tag logic 413,mobile communication device 400 searches for nearby mobile communicationdevices using GPS. The GPS coordinates of mobile communication device400 are compared with GPS coordinates of other mobile communicationdevices, and mobile communication device 401 is found. To enable this,owner of mobile device 401 may subscribe to a service on the networkthat allows sharing of GPS coordinate information, such communitiesbeing in existence today. Tag logic 413 allows the user of mobilecommunication device 400 to browse the media objects of mobilecommunication device 401 by entering a password on mobile communicationdevice 400. Once the user finds the desired media object, the user tagsthe media object using any of the methods described above. Tag logic 413of mobile communication device 400 generates a tag including a mediareference and a user identifier, and transmits the tag to media server424 across network 420. Media logic 425, on media server 424, parses thetag to extract the media reference and the user identifier. Media logic425 then determines which media object in media database 426 the userhas tagged. Media database 426 returns one or several closely matchedresults based on the media reference. Media logic 425 determines thebest media object and transmits the media object from media database 426through network 420 to mobile communication device 400. Media server 424then sends a notice to billing server, the notice including the useridentifier and the media reference. An amount may be included in thenotice.

In other embodiments, the mobile communication device determines nearbymobile communication devices using Near Field Communication (NFC),BLUETOOTH, WiFi, and other forms of wireless communication. This mayoccur after registering with a personal area network (PAN) or a localarea network (LAN). The mobile communication device may additionallylocate other mobile communication devices based on the cell ID of thebase station, a serving mobile switching center (MSC), sectorcoordinates, etc. When connecting to another mobile communicationdevice, the communication may be through the network or via a directconnection. Network congestion is relieved in embodiments where themobile communication devices communicate directly through NFC, WiFi,BLUETOOTH, etc. There are many security measures that can be used toprotect users from unauthorized access to media objects. A password,PIN, etc., can be given for general access, or on a per-user basis.Restrictions on time of access are enforced in some embodiments. Somemobile communication devices provide access to only some of the mediaobjects stored on the memory while other media objects remain hidden. Aspecial sharing folder may be created on some mobile devices to enableaccess to, preview of, and tagging of media objects.

FIG. 5 shows a screenshot of a user interface for tagging media storedon another mobile communication device, according to an exemplaryembodiment of the present subject disclosure. The screenshot is shown ondisplay 502 of mobile communication device 500, which includes keypad504, among other components. The user interface is generated andpresented by a tag logic on a memory of mobile communication device 500and includes a tag browser 540, a media selection 542, an applicationselection 544, a download button 546 and a cancel button 548. Whenmobile communication device 500 connects to a nearby mobilecommunication device, tag browser 540 loads to display the selection ofmedia objects that are stored on the nearby mobile communication deviceand indicated as being available for the user to tag or download. Oncethe user has found a desired media object, the user selects the mediaobject using keypad 504. Once selected, the user then selects thedownload button using keypad 504 once again. Once the download buttonhas been selected, the tag is sent to the media server, and thetransaction begins.

In other embodiments of the present subject disclosure, the tag logicallows the user to choose more options when browsing the media objectsof another mobile communication device or other device on the network.Search functions allow users to quickly locate a specific media objectand preview functions allow users to listen to or view a sample of themedia object before tagging. The user may add the media object to a wishlist, a list of media objects for future download stored on the memoryof the browsing mobile communication device, in some embodiments. Thisallows the user to wait until a later time, and readily recall the mediaobject when the user is ready to purchase.

The foregoing disclosure of the exemplary embodiments of the presentsubject disclosure has been presented for purposes of illustration anddescription. It is not intended to be exhaustive or to limit the subjectdisclosure to the precise forms disclosed. Many variations andmodifications of the embodiments described herein will be apparent toone of ordinary skill in the art in light of the above disclosure. Thescope of the subject disclosure is to be defined only by the claimsappended hereto, and by their equivalents.

Further, in describing representative embodiments of the present subjectdisclosure, the specification may have presented the method and/orprocess of the present subject disclosure as a particular sequence ofsteps. However, to the extent that the method or process does not relyon the particular order of steps set forth herein, the method or processshould not be limited to the particular sequence of steps described. Asone of ordinary skill in the art would appreciate, other sequences ofsteps may be possible. Therefore, the particular order of the steps setforth in the specification should not be construed as limitations on theclaims. In addition, the claims directed to the method and/or process ofthe present subject disclosure should not be limited to the performanceof their steps in the order written, and one skilled in the art canreadily appreciate that the sequences may be varied and still remainwithin the spirit and scope of the present subject disclosure.

1. A mobile communication device comprising: a processor; a memory incommunication with the processor; a transceiver in communication withthe processor; and a tag logic on the memory for receiving an input tocreate a tag for a media object, the tag including a media referencecorresponding to the media object and a user ID unique to a user of themobile communication device, transmitting the tag to a media server, andreceiving the media object from a media database in communication withthe media server.
 2. The device in claim 1, further comprising a keypad.3. The device in claim 2, wherein the input is a key on the keypad. 4.The device in claim 3, wherein the input is a dedicated tag key.
 5. Thedevice in claim 1, wherein the input is a Dual-Tone Multi-Frequency(DTMF) tone sounded upon the user activating a key on the keypad.
 6. Thedevice in claim 1, further comprising a GPS unit.
 7. A system fortagging and receiving media on a mobile communication device, the systemcomprising: a mobile communication device; a media server incommunication with the mobile communication device; a media database incommunication with the mobile communication device; a billing server incommunication with the media server; a tag logic on the mobilecommunication device for receiving an input to create a tag for a mediaobject, the tag including a media reference corresponding to the mediaobject and a user ID unique to a user of the mobile communicationdevice, transmitting the tag to the media server, and receiving themedia object from the media database; and a media logic on the mediaserver for receiving the tag from the mobile communication device,transmitting the media object to the mobile communication device, andsubmitting a record of the media tag to the billing server.
 8. Thesystem in claim 7, wherein the media logic is further for determiningthe media object based on the media reference.
 9. The system in claim 7,wherein the media logic is further for verifying the media object. 10.The system in claim 7, further comprising a second mobile communicationdevice.
 11. The system in claim 10, wherein the tag logic is further forconnecting to the second mobile communication device.
 12. The system inclaim 11, wherein the tag logic is further for browsing a plurality ofmedia objects on the second mobile communication device.
 13. A methodfor tagging and receiving media on a mobile communication device, themethod comprising: receiving input to create a tag for a media object,the tag including a media reference associated with the media object anda user ID unique to a user of the mobile communication device;transmitting the tag to a media server; and receiving the media objectfrom a media database in communication with the media server.
 14. Themethod in claim 13, further comprising playing a media object over themobile communication device.
 15. The method in claim 14, wherein themedia object is played as a ring-back-tone.
 16. The method in claim 13,further comprising outputting the media object.
 17. The method in claim13, further comprising displaying the media reference.
 18. The method inclaim 13, further comprising verifying the media object.
 19. The methodin claim 13, further comprising connecting to a second mobilecommunication device.
 20. The method in claim 19, further comprisingbrowsing a plurality of media objects on the second mobile communicationdevice.